Data were imported in stata 12.0 (Stata Statistical Software; StataCorp, College Station, TX, USA) and the r statistical software (R Foundation for Statistical Computing, Vienna, Austria) for statistical analysis. Fever
was defined as an observed axillary temperature ≥37·5°C and/or individual-reported fever within the previous 24 h. Patent parasite carriage as any parasite density detected by microscopy; submicroscopic parasitaemia as parasitaemia detected by PCR in the absence of microscopically confirmed parasite carriage. Parasite density was presented as geometric mean Dasatinib molecular weight in patent parasite carriers only, together with the 25th and 75th percentiles (interquartile range, IQR). Duplicate ELISA OD results were averaged and normalized against the positive control sample on each plate. To do this, a titration curve was fitted to the ODs obtained for the standard plasma dilutions by least squares minimisation using a three variable sigmoid model and the solver add-in
in Excel 2007 (Microsoft Corp., Redmond, WA, USA), assuming an arbitrary value of 1000 U/mL of antibody against each antigen in the standard pool [5]. Mean OD values for the spot extracts were converted to units/mL using this fitted curve. Sample, where duplicate optical densities (ODs) differed by more than 50%, results were excluded from the analysis. The binding of antibodies in serum from 44 Europeans never exposed to malaria was used to define a cut-off (mean OD + 3 SD) for positive and negative responses to each antigen. Antibody
titre https://www.selleckchem.com/products/3-deazaneplanocin-a-dznep.html was estimated using the formula dilution/[maximum OD/(OD test serum minimum OD) − 1] where the maximum OD was the maximum value of the standard curve and the minimum OD the lowest value of the negative control. The titre expressed in Arbitrary Units (AU/mL) was used as an indicator of antibody density in the analyses. Only individuals ≥1 year were included in the serological analysis to minimize the effect of maternally derived antibodies in infants. Categorical variables were analysed using chi-square test or chi-square test for trend. Student’s t-test, analysis of variance or nonparametric equivalents were used when comparing continuous variables. Logistic and linear regression models were used to adjust binary and Pyruvate dehydrogenase continuous variables for potential confounding. Titre values were log10 transformed for analyses. To assess the effect of parasite exposure on antibody titres individuals were categorized into one of the following four exposure groups: (i) ‘parasite-free’ (microscopy and PCR-negative at all surveys, no clinical malaria recorded); (ii) ‘always parasitaemic’ (positive at all surveys by either microscopy or PCR); (iii) ‘lost infection’ (initially PCR or microscopy positive, negative at later surveys); and (iv) ‘acquired infection’ (initially PCR and microscopy negative, positive at later surveys).